Evaluation of logic SER for a network processor and the use of targeted hardening to improve system SER performance

Author

Narasimham, B. ; Risch, S. ; Wang, J.K. ; Spillane, J. ; Keegan, L. ; Chandrasekharan, K. ; Djaja, G.

Author_Institution

Broadcom Corp., Irvine, CA, USA

fYear

2013

fDate

14-18 April 2013

Abstract

Chip-level logic masking simulations were performed on a network processor with ~1.75M flip-flops to identify the masking factors and the functional blocks that contribute to most errors. Results indicate that most errors originate from a few functional blocks, and that targeted hardening of the flip-flops can significantly improve the overall system SER at very low area, speed, and power penalties. A novel hysteresis-based DFF hardening technique is presented with experimental results from a 28 nm test chip design.

Keywords

circuit simulation; flip-flops; logic circuits; logic design; chip-level logic masking simulations; flip-flops; functional blocks; hysteresis-based DFF hardening technique; logic SER; masking factors; network processor; power penalties; size 28 nm; system SER performance; targeted hardening; test chip design; Clocks; Flip-flops; Hysteresis; Inverters; Latches; Pipelines; Timing; SER; alpha particles; flip-flop; hardening-by-design; hysteresis; logic masking; network processor; neutrons; single-event; soft error; timing masking;

fLanguage

English

Publisher

ieee

Conference_Titel

Reliability Physics Symposium (IRPS), 2013 IEEE International

Conference_Location

Anaheim, CA

ISSN

1541-7026

Print_ISBN

978-1-4799-0112-8

Electronic_ISBN

1541-7026

Type

conf

DOI

10.1109/IRPS.2013.6531990

Filename

6531990